New computed rates for excited S(1D) and SO(1Δ) plus a 1 ppm near-surface atomic sulfur source improve photochemical modeling of sulfur species in Venus and exo-Venus atmospheres.
I., Visscher, C., Fortney, J
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Pre-computed grids of aerosol optical properties reduce computation time in exoplanet retrievals by 1.4-17x with negligible impact on retrieved parameters and scale to multiple species.
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A Comprehensive Sulfur Chemistry Network Including Excited S(1D) and SO(1{\Delta}) for the XODIAC Photochemical Model: Accounting for Missing Sulfur Processes in Venus and Exo-Venus Analogs
New computed rates for excited S(1D) and SO(1Δ) plus a 1 ppm near-surface atomic sulfur source improve photochemical modeling of sulfur species in Venus and exo-Venus atmospheres.
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Pre-computed aerosol extinction, scattering and asymmetry grids for scalable atmospheric retrievals
Pre-computed grids of aerosol optical properties reduce computation time in exoplanet retrievals by 1.4-17x with negligible impact on retrieved parameters and scale to multiple species.